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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
#include <stdint.h>
#include <assert.h>
#include <string.h>
#include <syscfg/syscfg.h>
#include <os/os.h>
#include <nimble/ble.h>
#include <nimble/nimble_opt.h>
#include <controller/ble_hw.h>
#include <ble/xcvr.h>
#include <mcu/cmsis_nvic.h>
#include <os/os_trace_api.h>
/* Total number of resolving list elements */
#define BLE_HW_RESOLV_LIST_SIZE (16)
/* We use this to keep track of which entries are set to valid addresses */
static uint8_t g_ble_hw_whitelist_mask;
/* Random number generator isr callback */
static ble_rng_isr_cb_t ble_rng_isr_cb;
/* If LL privacy is enabled, allocate memory for AAR */
#if MYNEWT_VAL(BLE_LL_CFG_FEAT_LL_PRIVACY)
/* The NRF5340 supports up to 16 IRK entries */
#if (MYNEWT_VAL(BLE_LL_RESOLV_LIST_SIZE) < 16)
#define NRF_IRK_LIST_ENTRIES (MYNEWT_VAL(BLE_LL_RESOLV_LIST_SIZE))
#else
#define NRF_IRK_LIST_ENTRIES (16)
#endif
/* NOTE: each entry is 16 bytes long. */
uint32_t g_nrf_irk_list[NRF_IRK_LIST_ENTRIES * 4];
/* Current number of IRK entries */
uint8_t g_nrf_num_irks;
#endif
/* Returns public device address or -1 if not present */
int
ble_hw_get_public_addr(ble_addr_t *addr)
{
uint32_t addr_high;
uint32_t addr_low;
/* Does FICR have a public address */
if ((NRF_FICR_NS->DEVICEADDRTYPE & 1) != 0) {
return -1;
}
/* Copy into device address. We can do this because we know platform */
addr_low = NRF_FICR_NS->DEVICEADDR[0];
addr_high = NRF_FICR_NS->DEVICEADDR[1];
memcpy(addr->val, &addr_low, 4);
memcpy(&addr->val[4], &addr_high, 2);
addr->type = BLE_ADDR_PUBLIC;
return 0;
}
/* Returns random static address or -1 if not present */
int
ble_hw_get_static_addr(ble_addr_t *addr)
{
int rc;
if ((NRF_FICR_NS->DEVICEADDRTYPE & 1) == 1) {
memcpy(addr->val, (void *)&NRF_FICR_NS->DEVICEADDR[0], 4);
memcpy(&addr->val[4], (void *)&NRF_FICR_NS->DEVICEADDR[1], 2);
addr->val[5] |= 0xc0;
addr->type = BLE_ADDR_RANDOM;
rc = 0;
} else {
rc = -1;
}
return rc;
}
/**
* Clear the whitelist
*
* @return int
*/
void
ble_hw_whitelist_clear(void)
{
NRF_RADIO_NS->DACNF = 0;
g_ble_hw_whitelist_mask = 0;
}
/**
* Add a device to the hw whitelist
*
* @param addr
* @param addr_type
*
* @return int 0: success, BLE error code otherwise
*/
int
ble_hw_whitelist_add(const uint8_t *addr, uint8_t addr_type)
{
int i;
uint32_t mask;
/* Find first ununsed device address match element */
mask = 0x01;
for (i = 0; i < BLE_HW_WHITE_LIST_SIZE; ++i) {
if ((mask & g_ble_hw_whitelist_mask) == 0) {
NRF_RADIO_NS->DAB[i] = get_le32(addr);
NRF_RADIO_NS->DAP[i] = get_le16(addr + 4);
if (addr_type == BLE_ADDR_RANDOM) {
NRF_RADIO_NS->DACNF |= (mask << 8);
}
g_ble_hw_whitelist_mask |= mask;
return BLE_ERR_SUCCESS;
}
mask <<= 1;
}
return BLE_ERR_MEM_CAPACITY;
}
/**
* Remove a device from the hw whitelist
*
* @param addr
* @param addr_type
*
*/
void
ble_hw_whitelist_rmv(const uint8_t *addr, uint8_t addr_type)
{
int i;
uint16_t dap;
uint16_t txadd;
uint32_t dab;
uint32_t mask;
/* Find first ununsed device address match element */
dab = get_le32(addr);
dap = get_le16(addr + 4);
txadd = NRF_RADIO_NS->DACNF >> 8;
mask = 0x01;
for (i = 0; i < BLE_HW_WHITE_LIST_SIZE; ++i) {
if (mask & g_ble_hw_whitelist_mask) {
if ((dab == NRF_RADIO_NS->DAB[i]) && (dap == NRF_RADIO_NS->DAP[i])) {
if (addr_type == !!(txadd & mask)) {
break;
}
}
}
mask <<= 1;
}
if (i < BLE_HW_WHITE_LIST_SIZE) {
g_ble_hw_whitelist_mask &= ~mask;
NRF_RADIO_NS->DACNF &= ~mask;
}
}
/**
* Returns the size of the whitelist in HW
*
* @return int Number of devices allowed in whitelist
*/
uint8_t
ble_hw_whitelist_size(void)
{
return BLE_HW_WHITE_LIST_SIZE;
}
/**
* Enable the whitelisted devices
*/
void
ble_hw_whitelist_enable(void)
{
/* Enable the configured device addresses */
NRF_RADIO_NS->DACNF |= g_ble_hw_whitelist_mask;
}
/**
* Disables the whitelisted devices
*/
void
ble_hw_whitelist_disable(void)
{
/* Disable all whitelist devices */
NRF_RADIO_NS->DACNF &= 0x0000ff00;
}
/**
* Boolean function which returns true ('1') if there is a match on the
* whitelist.
*
* @return int
*/
int
ble_hw_whitelist_match(void)
{
return NRF_RADIO_NS->EVENTS_DEVMATCH;
}
/* Encrypt data */
int
ble_hw_encrypt_block(struct ble_encryption_block *ecb)
{
int rc;
uint32_t end;
uint32_t err;
/* Stop ECB */
NRF_ECB_NS->TASKS_STOPECB = 1;
/* XXX: does task stop clear these counters? Anyway to do this quicker? */
NRF_ECB_NS->EVENTS_ENDECB = 0;
NRF_ECB_NS->EVENTS_ERRORECB = 0;
NRF_ECB_NS->ECBDATAPTR = (uint32_t)ecb;
/* Start ECB */
NRF_ECB_NS->TASKS_STARTECB = 1;
/* Wait till error or done */
rc = 0;
while (1) {
end = NRF_ECB_NS->EVENTS_ENDECB;
err = NRF_ECB_NS->EVENTS_ERRORECB;
if (end || err) {
if (err) {
rc = -1;
}
break;
}
}
return rc;
}
/**
* Random number generator ISR.
*/
static void
ble_rng_isr(void)
{
uint8_t rnum;
os_trace_isr_enter();
/* No callback? Clear and disable interrupts */
if (ble_rng_isr_cb == NULL) {
NRF_RNG_NS->INTENCLR = 1;
NRF_RNG_NS->EVENTS_VALRDY = 0;
(void)NRF_RNG_NS->SHORTS;
os_trace_isr_exit();
return;
}
/* If there is a value ready grab it */
if (NRF_RNG_NS->EVENTS_VALRDY) {
NRF_RNG_NS->EVENTS_VALRDY = 0;
rnum = (uint8_t)NRF_RNG_NS->VALUE;
(*ble_rng_isr_cb)(rnum);
}
os_trace_isr_exit();
}
/**
* Initialize the random number generator
*
* @param cb
* @param bias
*
* @return int
*/
int
ble_hw_rng_init(ble_rng_isr_cb_t cb, int bias)
{
/* Set bias */
if (bias) {
NRF_RNG_NS->CONFIG = 1;
} else {
NRF_RNG_NS->CONFIG = 0;
}
/* If we were passed a function pointer we need to enable the interrupt */
if (cb != NULL) {
#ifndef RIOT_VERSION
NVIC_SetPriority(RNG_IRQn, (1 << __NVIC_PRIO_BITS) - 1);
#endif
#if MYNEWT
NVIC_SetVector(RNG_IRQn, (uint32_t)ble_rng_isr);
#else
ble_npl_hw_set_isr(RNG_IRQn, ble_rng_isr);
#endif
NVIC_EnableIRQ(RNG_IRQn);
ble_rng_isr_cb = cb;
}
return 0;
}
/**
* Start the random number generator
*
* @return int
*/
int
ble_hw_rng_start(void)
{
os_sr_t sr;
/* No need for interrupt if there is no callback */
OS_ENTER_CRITICAL(sr);
NRF_RNG_NS->EVENTS_VALRDY = 0;
if (ble_rng_isr_cb) {
NRF_RNG_NS->INTENSET = 1;
}
NRF_RNG_NS->TASKS_START = 1;
OS_EXIT_CRITICAL(sr);
return 0;
}
/**
* Stop the random generator
*
* @return int
*/
int
ble_hw_rng_stop(void)
{
os_sr_t sr;
/* No need for interrupt if there is no callback */
OS_ENTER_CRITICAL(sr);
NRF_RNG_NS->INTENCLR = 1;
NRF_RNG_NS->TASKS_STOP = 1;
NRF_RNG_NS->EVENTS_VALRDY = 0;
OS_EXIT_CRITICAL(sr);
return 0;
}
/**
* Read the random number generator.
*
* @return uint8_t
*/
uint8_t
ble_hw_rng_read(void)
{
uint8_t rnum;
/* Wait for a sample */
while (NRF_RNG_NS->EVENTS_VALRDY == 0) {
}
NRF_RNG_NS->EVENTS_VALRDY = 0;
rnum = (uint8_t)NRF_RNG_NS->VALUE;
return rnum;
}
#if MYNEWT_VAL(BLE_LL_CFG_FEAT_LL_PRIVACY)
/**
* Clear the resolving list
*
* @return int
*/
void
ble_hw_resolv_list_clear(void)
{
g_nrf_num_irks = 0;
}
/**
* Add a device to the hw resolving list
*
* @param irk Pointer to IRK to add
*
* @return int 0: success, BLE error code otherwise
*/
int
ble_hw_resolv_list_add(uint8_t *irk)
{
uint32_t *nrf_entry;
/* Find first ununsed device address match element */
if (g_nrf_num_irks == NRF_IRK_LIST_ENTRIES) {
return BLE_ERR_MEM_CAPACITY;
}
/* Copy into irk list */
nrf_entry = &g_nrf_irk_list[4 * g_nrf_num_irks];
memcpy(nrf_entry, irk, 16);
/* Add to total */
++g_nrf_num_irks;
return BLE_ERR_SUCCESS;
}
/**
* Remove a device from the hw resolving list
*
* @param index Index of IRK to remove
*/
void
ble_hw_resolv_list_rmv(int index)
{
uint32_t *irk_entry;
if (index < g_nrf_num_irks) {
--g_nrf_num_irks;
irk_entry = &g_nrf_irk_list[index];
if (g_nrf_num_irks > index) {
memmove(irk_entry, irk_entry + 4, 16 * (g_nrf_num_irks - index));
}
}
}
/**
* Returns the size of the resolving list. NOTE: this returns the maximum
* allowable entries in the HW. Configuration options may limit this.
*
* @return int Number of devices allowed in resolving list
*/
uint8_t
ble_hw_resolv_list_size(void)
{
return BLE_HW_RESOLV_LIST_SIZE;
}
/**
* Called to determine if the address received was resolved.
*
* @return int Negative values indicate unresolved address; positive values
* indicate index in resolving list of resolved address.
*/
int
ble_hw_resolv_list_match(void)
{
uint32_t index;
if (NRF_AAR_NS->EVENTS_END) {
if (NRF_AAR_NS->EVENTS_RESOLVED) {
index = NRF_AAR_NS->STATUS;
return (int)index;
}
}
return -1;
}
#endif
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